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lrMike



Member Since: 26 Feb 2010
Location: Athens
Posts: 177

Greece 
Temp. sensor. A different approach
Since the beginning of my driving life I always owned cars which never had any kind of external temperature sensor, not even as optional equipment. When I finally managed to fulfil my childhood’s dream and bought my beloved Defender back in 2010 I was hit by the no temp sensor curse for once more.

For several years I was happy enough to be informed by the scangauge but the readings were not accurate especially when my truck was stationary. For the few who are not aware, scangauge reads and displays the ECUs Air Intake Temperature measurement along the air induction line which means that when there is no adequate air flow, this temperature rises fast due to the proximity with the engine.

Several days ago I thought it was time to come up with a neat solution that would cover the following requirements:

1) The temp display had to be as small as possible but with high visibility, day and night.

2) The placement of the display had to be somewhere that required no damage to the fascia. I follow the golden rule (at least for myself) that whatever change I make internally or externally must be reversible, should I ever decide to revert the car as delivered from the factory.

3) The price should be kept as low as possible.

4) Easy installation.

Having all of the above in mind I decided to proceed with the following solution (total cost around 30 Euros):
1) Monochrome 0.96" 128x64 OLED graphic display installed on the right side (red arrow) of the part number FAG500420PUY as shown in the LRcat





2) Waterproof DS18B20 Digital temperature sensor.




3) Arduino ProMini 5V as the main controller



4) 5V Buzzer for icy conditions alarm




Kindly find below the installation steps:

Preparing the plastic finisher for the display

1) Remove the two torx screws (lrcat pic numbered “4”) that hold the plastic instrument finisher in place. There is no need to remove anything else from the instrument panel and steering column area.

2) Now comes the only tricky part in the whole installation process which is to file down the plastic “nerves” in the backside of the finisher to create the necessary depth in order to seat the display PCB. This was done by careful use of a Dremel rotary tool. After you have a flat “deep” area for the display, next step is to open the actual rectangular opening for the display itself in order to be visible from the front. This can be done with a hobby knife or by careful use of the dremel. Special care must be taken to keep rpms low because the finisher’s plastic material is very soft and easily melts with the rotary tool. What we want to do in order to have a perfect finish is not to melt but to cut through the plastic.

3) Next step is to secure the display in place. All cables have to be soldered before this step, more details on the wiring below. I used glue bar from hot gun for securing and I covered the display’s PCB with insulating tape since the installed PCB will be very close to a torx screw holding the instrument cluster in place. Please find below a photo showing the installed display from the back side.


Click image to enlarge


4) Although you can keep the display as it is, I chose to put a 3mm thick polycarbonate rectangle in order to cover the opening in front of the display and make it look flush with the finishing plastic.

5) In case something really BAD happened while trying to sculpture the whole plastic thing it is not the end of the world as this plastic part is easily replaceable and the original LR part only costs around 23 Euros. Caution!! For fathers having kids at ages between 2 and 6 like me, the described process must be done after they are put to sleep and triple checked that they are not going to wake up even after explosion. Rolling Eyes

Wiring

1) To start, you'll need to solder the two jumpers on the back of the OLED. Both must be soldered 'closed' for communication with the microcontroller to work!



2) Connect the parts following the wiring diagram below:


Click image to enlarge


• The red cable going “UP” is the ignition live +12V supply and connected to pin RAW of the controller. The ignition live can be taken easily from the wiper lever plug. If I remember correctly is the green-white cable but better check with your multimeter. The black is GND and connected to GND.
• The DS18B20 sensor comes prewired with black red and yellow cables as shown above. Red connected to VCC, black to GND and yellow to pin 9.
• The 4,7k resistor is connected between the red (5V) and yellow (Data) pins of the sensor.
• The + symbol of the buzzer is connected to pin 5 and the other pin to GND
• For the display, GND goes to GND, Vin goes to VCC, Data to pin A4, Clk to pin A5, RST to pin 4. The rest are not connected.

3) Route the display cables behind the steering column down to the speaker. The microcontroller is tiny (33mm X 18mm) and can be installed in a small enclosure behind the speaker.

4) Route the buzzer cable in a place where it will be audible. The buzzer serves the icy road alarm. It is engaged after temp drops below 2 and beeps once for 3 times.

5) Choose a sensor location and route the cables. My preferred location was to route the cables down under the carpet and through the hole along with the plastic plug which holds the carpet to the aluminum floor panel then along the chassis to the inner side of the front bumper. An alternative and better solution is to route the sensor cable through the bulkhead but this required removing the instrument cluster. I chose not to do that for the 10th time during the last two weeks as before doing the temp sensor I finished the cruise control job which required a lot of playing with the area surrounding the instruments and the steering column.

6) Check all connections are secure without any short circuits.

7) Load the program through the optional FTDI programmer (more on this if there is interest from the forum members)

Cool Pray…

9) Turn the ignition and look at maybe the most clear and beautiful miniature display you have ever seen.


Click image to enlarge


Click image to enlarge


More on the OLED technology can be found here: https://en.wikipedia.org/wiki/OLED

The most interesting part of this whole microcontroller game is that once you have one installed, you can add several other sensors like inclinometers, compass, altimeters etc. You can even add a GPS-GSM module for tracking purposes. The potential is huge, the prices are very low and the DIY electronics industry very fast evolving.

Hope you enjoyed. Very Happy

Mike
Post #734949 15th Oct 2018 10:14pm
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Co1



Member Since: 19 Aug 2018
Location: North Yorkshire
Posts: 3674

United Kingdom 2013 Defender 90 Puma 2.2 HT Loire Blue
Great write up, thanks for sharing.
Post #734954 16th Oct 2018 5:25am
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dgardel



Member Since: 30 Nov 2008
Location: Veneto (Heart & Head)
Posts: 3586

Italy 
This is my solution

Before 2 DIN dash

Click image to enlarge


After 2 DIN dash
 Discovery 5 td6 HSE Stornoway Gray Outback Engineering Limited Edition

IID Pro MV License
Post #734959 16th Oct 2018 6:39am
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lrMike



Member Since: 26 Feb 2010
Location: Athens
Posts: 177

Greece 
Hi Daniel,

Your great write up for the check temp was mainly the inspiration for my solution.

But...
What I didn't like was the type of LCD display that you are using. The monochrome OLED is a completely different story and you need to see it with your eyes to believe it. My photos cannot show the real thing.

I wanted to have something based on microcontroller in order to be future proof. I can connect nearly whatever sensor exists on earth and get something out of it, like a display, an action, a remote notification... whatever you can think of.

To be honest the rest of your truck still remains an inspiration for mine. Wink

Best regards,

Mike
Post #734978 16th Oct 2018 9:01am
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macfrank



Member Since: 05 Nov 2015
Location: somewhere in the north
Posts: 1076

Germany 2015 Defender 110 Puma 2.2 SW Keswick Green
Great job. Makes me want to dig out my Arduino stuff, which has been put aside in favour of a new time consuming hobby called "Defender" Wink

For our camping use cases I would require a power connection to the aux battery, an additional internal temperature sensor and min/max temperatures for both with manual reset. So a very low power consuming software would be needed.
Post #735291 17th Oct 2018 12:37pm
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dotom



Member Since: 04 Feb 2012
Location: Dortmund
Posts: 90

Germany 2016 Defender 90 Puma 2.2 XS CSW Corris Grey
Hi Mike, exactly what I’m looking for for a long time. Great job. Could you tell me / us please something about programming the controller?
Is there a special code necessary to show the temperature? Does it show a minus before the numbers when it’s below zero degrees?
Best regards
Tom
Post #735540 18th Oct 2018 3:04pm
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lrMike



Member Since: 26 Feb 2010
Location: Athens
Posts: 177

Greece 
macfrank wrote:


For our camping use cases I would require a power connection to the aux battery, an additional internal temperature sensor and min/max temperatures for both with manual reset. So a very low power consuming software would be needed.


The power requirement for this kind of applications is near zero. Something around the area of 100mA at 12v so no need to worry.
Post #735575 18th Oct 2018 6:09pm
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lrMike



Member Since: 26 Feb 2010
Location: Athens
Posts: 177

Greece 
Hi Tom,

The actual arduino code will be sent to you if you pm me.

It consists of three main parts. The code for the display, the code for reading the sensor data and the code for the ice warning buzzer.

It's a very simple code.

For uploading to the board you will need an FTDI board like the one sold by sparkfun.

Yes it shows a minus symbol for subzero temperatures. The resolution is 0.1 degrees and the sensor is digital which offers a lot of benefits compared to traditional thermistors. It is considered to be the most value for money temp sensor for non industrial uses.

I can't wait to see this "seed" growing in other defenders here Very Happy
Post #735579 18th Oct 2018 6:17pm
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